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Archive for the ‘cloud’ Category

On April 16, Bentley Systems announced its 2013 annual results in a press call. Bentley is a private company and uses the opportunity to highlight its annual accomplishments such as its involvement in trends and new products. Bentley is a leader in the market in the areas of electric power generation, electric power transmission, distribution and communications; water and wastewater distribution, EPC and AEC, and mining and metals. Bentley’s geospatial offerings are integrated into many of the above market areas.

Bentley’s view of BIM Level 3, as the amount of available information increases, it is also pushed out for broader access by more stake holders. (Image courtesy: Bentley)

In the latest edition of ABI Research’s quarterly Market Data “Location Technologies”, it looks like 2014 could be a breakout year for indoor location technologies in retail environments. Early adopters are shifting from trials to full-scale deployments of the technology, as they are entering the end of the three-year adoption cycle.

Low-cost BLE/iBeacons and Wi-Fi solutions are creating a wave of second generation start-ups to fuel new growth and use cases across all major verticals. This activity is estimated to result in over 30,000 indoor location installations in 2014.

Major grocery and pharmacy chains are really moving towards this technology, and adoption and resulting revenues for all indoor location technologies are available across 11 major verticals. In fast food, for example, a small percentage of improvement in queue lengths can translate to a savings of millions of dollars. Many chain stores are doing trials of the technology just to see if indoor location is right for them. (more…)

In an interview with James Fairweather, Vice President of Architecture, Technology and Experience for Pitney Bowes Inc., he answered the following questions about the new collaboration on IBM’s “BlueMix” platform-as-a-service. This collaboration is designed to develop new hybrid cloud location intelligence services that help businesses unearth deeper customer insights based on geography, enabling them to deliver more personalized services and contextually relevant experiences.

1) Can you tell me how hybrid cloud location services are different than other location based services?

“Applications that need to leverage big data-residing in both public and private clouds, especially real-time data and analytics, benefit from hybrid cloud location services. For developers, it’s a system that significantly reduces the time needed to create an application. For businesses, it’s a system which allows line-of-business users to easily create applications without needing a high level of technical know-how.

Designed by Julie Waldman, and developed and maintained by DATA Inc., Digital Footsteps is a mobile app and re-usable framework for the travel and hospitality industry. The mobile app is designed to act as a “digital concierge” to drive traffic to local businesses and tourist attractions in the area of a hotel or other facility.

Holistic City Limited has just announced their latest release of CityCAD, version 2.6.

Several sharp improvements characterize this release as well as stability and performance upgrades:

New samples have been added to the settings library (different kinds of residential and mixed-use blocks with a variety of detailed building perimeter objects) to make it easier to get up and running quickly.

Maggie McCullough, President of PolicyMap, talked about the latest release of their product. The company has been around since 2007, and today’s release is a significant update, as not much has changed in the product since its inception.

PolicyMap 3-Layer Map

PolicyMap is a one-stop-shop for a huge variety of public and commercial data (15,000 datasets), as well as the tools to map this data.

“PolicyMap is an online tool that allows anyone, particularly non-experts, the ability to easily make data rich maps on the web,” said McCullough. “Our customers are not GIS specialists or analysts. They tend to be public policy analysts and the end user who is really looking to understand data in a particular geography for specific purposes. So when we launched in 2007 we learned what people want to do with maps and the kinds of data they want access to. We have grown the business to include a lot of public users. We offer a lot for free, have a lot of government agencies, commercial organizations, a growing number of universities and non-profits.” (more…)

Structural Health Monitoring (SHM) is an emerging field that provides information on demand about any significant change or damage occurring in a structure. It has been employed for many years in civil infrastructure in various forms, ranging from visual observation and assessment of structural condition, to technology-led approaches involving deployment of an array of sensors that can include accelerometers, inclinometers and strain measurement devices on site. These sensors can be deployed on a permanent basis or moved on and off site each time a fresh set of data is required.

Conventional forms of inspection and monitoring are only as good as their ability to uncover potential issues in a timely manner. One of the major difficulties with SHM instruments for example, is managing the huge volumes of data that sensor arrays generate. Meanwhile, visual inspections and evaluations are insufficient for determining the structural adequacy of bridges or buildings.

With many civil structures throughout the world in urgent need of strengthening, rehabilitation, or replacement, SHM has seen renewed focus. There have been major advances in communications, data transmission and computer processing, which have enabled SHM solutions providing the ability to acquire vast volumes of data in relatively short periods of time and transfer it via high-speed fibre-optic or wireless connections to a central database. Subsequent analysis and modelling of this data can provide critical intelligence for maintenance and management strategies, as well as improved design.

Shoring-up civil structures

The immediacy and sensitivity of SHM enables it to serve a variety of applications. It can allow for short-term verification of new or innovative designs, as well as the early detection of problems and subsequent avoidance of catastrophic failures. When implemented as part of a maintenance strategy, it can assist with the effective allocation of resources, reducing both service disruptions and maintenance costs.

One of the core drivers however, is the growing requirement for refurbishment of critical transport infrastructure. Many owners and operators need timely information to ensure continued safe and economic operation of ageing infrastructure, while the construction and engineering industry faces a mounting challenge to shore-up supporting civil structures. Deterioration can be due to multiple factors, including the corrosion of steel reinforcement and consequent breakdown of concrete, or the fact that some structures may be sound, but have become functionally obsolete – e.g. a bridge that is no longer able to support growing traffic volumes, vehicle sizes and weights.

According to the American Society of Civil Engineers (ASCE), one in four bridges in the US is either structurally deficient or functionally obsolete. In Canada, more than 40 per cent of operational bridges were built over 30 years ago and have been impacted by the adverse climate and extensive use of de-icing salts. And in the UK, an increasing number of bridges and other structures need to be strengthened to comply with legal minimum requirements specified by European Community legislation. Efforts to reinforce the resilience of key infrastructure to extreme weather events are also ongoing.

Sensors in the loop

The aim of SHM is many fold, including monitoring the in-situ behaviour of a structure accurately and efficiently, to assess its performance under various service loads, to detect damage or deterioration, and to determine its health or condition in a timely manner.

Although a single definition has yet to be universally agreed, SHM describes the confluence of structural monitoring and damage detection, with the physical diagnostic tool being the integration of various sensing devices and ancillary systems. The latter can include data acquisition and processing, communications and networking, and damage detection and modelling software powered by sophisticated algorithms.

Field-proven technologies lie at the heart of SHM innovation. For the past few decades, closed loop sensors have proven to be highly robust, reliable, repeatable and accurate in a variety of applications where extremely precise measurements are required. Such devices include:

Inclinometers – measure horizontal and vertical angular inclination to very high levels of precision, and output the data in analogue or digital form. In SHM applications, inclinometers are employed to monitor movement over time of bridges, buildings and other large structures. In addition, customised products can offer specific performance specifications to meet exacting requirements.

Accelerometers – measure acceleration and deceleration of dynamic systems. Low ‘g’ range accelerometers are used within SHM to monitor accelerations induced into bridges and other structures to check design calculations and long-term critical safety. Accelerometers can also be used in the development phase of projects to ensure design calculations correlate with actual measurements in the application.

Load cells – transducers used to convert a force into an electrical signal and offer measurement of tension, compression and shear forces. Load cells are available in many physical shapes and forms to suit particular applications and types of loading. The majority of today’s designs employ precision strain gauges as the primary sensing element, whether foil or semiconductor, and feature low deflection and high frequency response characteristics. SHM applications for load cells include bridge lifting/weighing, vehicle/crane load monitoring, and earthquake force monitoring.

Bridging old and new

Improvements in electronics packaging and assembly methods have allowed the sensing devices employed in SHM solutions to become smaller, more cost effective, and so sensitive that there is no longer a need to excite a structure in order to gain vital information about its integrity. By placing the right number of sensors in the appropriate positions on a bridge for example, analysts now have the raw data required via ambient sources such as wind gust loads, foot falls, and traffic flows.

Moreover, advanced algorithms have been developed that allow asset owners and managing authorities to acquire both short and long-term structural integrity assessments that prove essential in taking decisions regarding repairs and upgrades, strengthening projects, financing, insurance, and dispute resolution.

A long-span suspension bridge currently under construction in Asia employs a sensor network that includes Sherborne Sensors’ precision servo inclinometers and accelerometers. This sensor network enables the identification of structural problems at an early stage, prolonging the life of the structure, identifying areas of concern, and improving public safety.

SHM’s benefits have also been clearly demonstrated at a remote steel bridge in the heart of Brazil’s Amazon basin. Supporting freight trains carrying 10% of the world’s iron ore each year, the bridge had been rolling back and forth whenever an ore carrying heavy-laden train was crossing. A horizontal crack had also appeared in one of the supporting concrete girders, with train drivers returning to the mines reporting increasingly violent vibrations as they crossed – despite their cars being empty.

A sensors-based SHM solution was brought in to monitor the bridge over a period of time and, using its data collector devices and advanced analysis techniques, discovered that the crack in the concrete was not the cause. Rather, it was the frequency of the movement of the returning trains coupled with that of the bridge. The solution was simply to reduce the speed of the trains by 20km per hour when they crossed the bridge un-laden, and the vibration was eliminated, without the need for costly engineering works to the bridge.

Using conventional methods, a displacement sensor would have been placed over the crack to measure how it responded to ambient vibration over time. But such a device would not have told the bridge owners why the crack had come about, and whether it had anything to do with the movement in the structure.

In this scenario, an SHM solution takes raw vibration data from field-proven and trusted sensors, and turns it into valuable information enabling analysts to provide a holistic diagnosis of a structure. This ensures asset owners and management authorities are fully-equipped with the knowledge to establish the most appropriate strategy for modifying a structural system to repair current weaknesses, minimise further issues and thus prolong the life of the asset.

Wireless innovation

As more capable sensors are deployed, the opportunity exists for engineers to find even more efficient and effective ways to acquire data, analyse the vast volumes being stored, identify areas for improvement and most importantly, act on the information provided. Automated SHM for example, brings a number of benefits, such as enabling cost-effective, condition-based maintenance as opposed to conventional schedule-based approaches.

Current commercial monitoring systems suffer from various technological and economic limitations that prevent their widespread adoption. In particular, the fixed wiring used to route from system sensors to the centralised data hub represent one of the greatest limitations since they are physically vulnerable and expensive from an installation and subsequent maintenance standpoint. The introduction of wireless sensor networks in particular is attracting significant interest.

A wireless sensor network consists of ‘nodes’, which can range from a few to several hundred sensors, with each node connected to one or several sensors. This model provides a practical solution for bridging information systems and the physical world. One of the major potential benefits is that often a large number of individual wireless sensors can be monitored using a single display device, or with a wide variety of fixed base stations and hand-held readers that are already available.

Wireless solutions are shown to reduce installation costs and sensor installation times dramatically. They also increase safety levels because they can often be configured remotely or prior to installation, and exchanged easily for calibration and maintenance. Conversely, the more permanent a sensor installation, the more costly the maintenance requirement tends to be. In addition, a solution that combines both wireless data transmission and battery operation, together with low power consumption is preferable.

The Wireless Tilt System (WTS) developed by Sherborne Sensors for example, is designed to provide structural engineers with a complete measurement solution able to record and log data remotely without the cost and complexity of traditional wired methods. The engineer simply fits the low power inclinometers to strategic points on a given structure or component thus helping to determine range of motion, as well as any structural weaknesses and whether maintenance is required. This simple and cost-effective solution is extremely beneficial, especially when multiple readings must be obtained.

Building business intelligence

Although implementing change in the civil engineering and construction industry takes time, new approaches to SHM can deliver immediate benefits to asset owners, financiers, and public authorities in reducing the risk of litigation, improving public safety, and the sustainability of critical civil transport infrastructure. Using the latest SHM solutions, structural performance detection and monitoring can be performed continuously, on a periodic basis, or in direct response to an event that may have affected the structure.

A variety of innovative structural integrity assessment solutions are being developed that provide the vital information that analysts use to compare the dissipation of vibrations with either the predicted behaviour of the structure given its design and materials, or with baseline measurements captured earlier. Customised servo accelerometers for example, are central to the data collector devices used to capture these baseline measurements and enable users to establish whether a structure transfers loads as designed.

When placed either singly or in an array on bridges or other structures for a period, data collector devices record a structure’s three-dimensional movement in extreme detail. Further successful applications include road deck frequency and mode shape determination; seismic structural monitoring; vertical, lateral and rotational acceleration measurements of decks, cables and bridge towers; and integration with GPS systems to improve deflection frequency response. However, determining the most appropriate sensor technology for the application, and also the interpretation of the data, is where the knowledge and experience of a specialist supplier of sensor technology comes to the fore.

George Demming, founding member of TerraGo Technology and CTO of TerraGo, talked in their recent webinar about the release of their Terrago v.6.0.4 geospatial collaboration software, including TerraGo Publisher, TerraGo Composer and TerraGo Toolbar.

TerraGo Publisher provides precise layer control and hyperlinking to documents, photos and files from within GeoPDF maps and imagery.

Blue Marble Geographics released Global Energy Mapper version 15.1, a so called minor release that features the “Create Flattened Site Pad Plan” dialog box option and improved processing of IHS Well (297/298) files.

According to the press release, “Global Energy Mapper is not just a viewer capable of displaying the most popular raster, elevation, and vector datasets. It converts, edits, prints, tracks GPS, and allows users to utilize GIS functionality on a wide variety of datasets. With Global Energy Mapper users have access to the Blue Marble GeoCalc coordinate transformation, SpatialOnDemand subscription and custom industry tools like the pad site placement tool, seismic survey tools and built-in point types and symbols for the oil & gas industry.”

Additional features of the new release include added support for MS SQL Spatial databases, enabling Global Energy Mapper to support all available spatial database types and 3D support for displaying a path profile across separate terrain surfaces that allows users to easily compare the surface of multiple loaded terrain layers along a single path.

Andrew Tosh, founder of GameSim of Orlando, a 3D visualization and GIS applications used in the gaming and military simulation industries, talked about the plans to expand their product Conform into the GIS market. GameSim is looking at 30% growth (2013). Tosh started the company in 2008 and now they have 33 employess. They will do revenue at $3.7 million this year.